Optimal coordinated voltage control for power system voltage stability

Optimal coordinated voltage control for power system voltage stability

An optimal coordinated voltage controller (OCVC) is developed based on the spirit of model predictive control (MPC) method. The OCVC consists of three components, namely a predictor, a control candidate pool, and a selector. It has been used in secondary voltage control (SVC) to coordinate dissimila...

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Veröffentlicht in:IEEE transactions on power systems 2004-05, Vol.19 (2), p.1115-1122
Hauptverfasser: Wen, J.Y., Wu, Q.H., Turner, D.R., Cheng, S.J., Fitch, J.
Format: Artikel
Sprache:eng
Schlagworte:
Control systems
Electric potential
Emergencies
Genetic programming
Mathematical models
Optimal control
Optimization
Pools
Power system control
Power system modeling
Power system stability
Power systems
Predictive control
Predictive models
Selectors
Static VAr compensators
Voltage
Voltage control
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Zusammenfassung:An optimal coordinated voltage controller (OCVC) is developed based on the spirit of model predictive control (MPC) method. The OCVC consists of three components, namely a predictor, a control candidate pool, and a selector. It has been used in secondary voltage control (SVC) to coordinate dissimilar control actions at different geographical locations in order to maintain desired voltage profiles in a global sense in emergencies. A single-stage Euler state predictor (SESP) is utilized, based on the system model, to predict voltage performance under selected control actions; the selection of the optimum control action from the pool is a complex optimization problem that is achieved by a pseudogradient evolutionary programming (PGEP) technique. Simulation results on a six-bus benchmark system and the New England 10-generator-39-bus system are given to show the potential of this method for online usage.
ISSN:0885-8950
1558-0679
DOI:10.1109/TPWRS.2004.825897